Floor System

ABSTRACT

A utilities terminal for use in a raised floor system is disclosed. The utilities terminal includes a floor tile having an access cavity, a support pan and an upper surface. The support pan is positioned within the access cavity, and has at least one access opening. The utilities terminal further includes a utilities grommet configured to be received within the support pan, and covering at least a portion of the support pan. The utilities terminal further includes a plurality of cover blocks selectively configured and adapted to be received within the support pan, cover the remaining open area of the support pan, and positioned substantially flush to the upper surface of the floor tile.

CROSS-REFERENCE TO RELATED APPLICATIONS

[0001] The present application is a continuation-in-part of application Ser. No. 09/713,602 titled “FLOOR SYSTEM,” filed Nov. 15, 2000, incorporated by reference, which is a continuation of application Ser. No. 09/093,996 titled “FLOOR SYSTEM,” filed Jun. 9, 1998, now issued as U.S. Pat. No. 6,202,374, incorporated by reference, to which a claim of priority is made.

FIELD OF THE INVENTION

[0002] The present invention relates to a floor system. In particular, the present invention relates to a floor system including a floor with floor tiles providing an access pattern with at least one access point so that the position of at least one article such as an article of furniture on the floor and the location of the access point of the floor can be made at least partially coincident and access to utilities can be provided through the floor to the article of furniture regardless of the position of the article of furniture on the floor.

BACKGROUND OF THE INVENTION

[0003] It is well known to provide for a work environment or space that includes articles of furniture (and other articles), such as systems furniture (e.g. panel walls), cabinets, worksurfaces, desks, tables, chairs or other seating products, posts or other utility or activity products, storage products, frames or other structures, lighting products, etc. Such articles may be freestanding, mounted or secured to a floor and/or to internal walls of the work environment or space or secured together, depending upon needs and nature of the particular application or installation.

[0004] It is also known to provide in the work environment for a floor system that includes a raised floor, typically composed of floor tiles, on which the articles of furniture are supported standing above a base floor (made of concrete or the like) and wherein utilities such as telephony, data, power and HVAC may be routed in a horizontal space created between the base floor and the raised floor, typically out of sight. According to such known arrangements for floor systems, access to utilities is typically provided at specific, fixed locations within the floor system, and thus the articles must be arranged on the raised floor in locations that are at least in part dictated by the specific, fixed locations of access to utilities within the floor system. While it is desirable to maintain utilities out of sight (i.e. below the raised floor), in certain applications, it is undesirable to have the potential location of articles of furniture and/or equipment limited by the fixed, specific location of access points in the floor system for utilities.

[0005] Accordingly, it would be advantageous to provide for a floor system for a work environment or space that does not limit the potential location of articles such as articles of furniture due to the fixed, specific location of access points for utilities. It would also be advantageous to have a floor system that includes a raised floor composed of floor tiles that can readily be configured during installation and thereafter reconfigured to provide for access points for utilities at a wide variety of locations. It would further be advantageous to have a floor system that provides articles such as articles of furniture with access to utilities at such access points so as to facilitate an optimal utilization of the work environment or space. It would further be advantageous to have a readily configurable and reconfigurable floor system including a floor with floor tiles providing an access pattern with at least one access point so that the position of at least one article such as an article of furniture on the floor and the location of the access point of the floor can be made at least partially coincident and access to utilities can be provided through the floor to the article of furniture regardless of the position of the article of furniture on the floor. It would further be advantageous to have a floor system of a type that is of sufficient structural strength and functionality for the work environment.

[0006] It would be desirable to provide a floor system with any one or more of these or other advantageous features.

SUMMARY OF THE INVENTION

[0007] The present invention relates to a floor system which includes a plurality of floor tiles, with at least one of the floor tiles providing an access pattern. A floor is formed by selective arrangement of the plurality of floor tiles, with at least one access point for utilities provided by the access pattern of at least one of the plurality of floor tiles. At least one article of furniture is selectively positioned on the floor. At least one access point can be selectively located within the floor. The position of at least one article of furniture on the floor and location of the access point of the floor can be made at least partially coincident and access to utilities can be provided through the floor to the article of furniture regardless of the position of the article of furniture on the floor.

[0008] The present invention also relates to a floor system for providing for access to utilities. The floor system includes a plurality of floor tiles, with at least one of the floor tiles having at least one compartment, and at least one subtile having an access pattern configured to be installed in at least one compartment of at least one floor tile. A floor is formed by selective arrangement of the plurality of floor tiles, with at least one access point for utilities provided by the access pattern of at least one of the plurality of floor tiles. At least one article of furniture is selectively positioned on the floor. At least one access point can be selectively located within the floor. The position of the article of furniture on the floor and location of the access point of the floor are at least partially coincident and access to utilities can be provided through the floor to the article of furniture regardless of the position of the article of furniture on the floor.

[0009] The present invention further relates to a floor system for a work environment adapted for distribution of utilities associated with articles such as articles of furniture. The floor system includes a plurality of floor tiles. At least one of the floor tiles provides an access pattern. A floor is formed by selective arrangement of the plurality of floor tiles with at least one access point for utilities provided by the access pattern of at least one of the plurality of floor tiles. At least one article is selectively positioned on the floor. At least one access point can be selectively located within the floor. The position of at least one article on the floor and location of the access point of the floor are at least partially coincident and access to utilities can be provided through the floor to the article regardless of the position of the article on the floor.

[0010] The present invention further relates to a utilities terminal for use in a raised floor system. The utilities terminal includes a floor tile having an access cavity, a support pan and an upper surface. The support pan is positioned within the access cavity and has at least one access opening. The utilities terminal further includes a utilities grommet configured to be received within the support pan, covering at least a portion of said support pan. The utilities terminal further includes a plurality of cover blocks selectively configured and adapted to be received within the support pan covering the remaining open area of the support pan and positioned substantially flush to the upper surface of the floor tile.

[0011] The present invention further relates to a floor system. The floor system includes a plurality of pedestals adapted to support floor tiles, a plurality of floor tiles having an access cavity, and an upper surface where at least one of the floor tiles includes a support pan positioned within an access cavity. The support pan has at least one access opening. The floor system further includes a utilities grommet configured to be received within the support pan covering at least a portion of the support pan. The floor system further includes a plurality of cover blocks selectively configured and adapted to be received within the support pan covering the remaining open area of the support pan and positioned substantially flush to the upper surface of said floor tile.

[0012] The present invention further relates to a method for reconfiguring a utilities terminal within a raised floor system where the utilities terminal includes a floor tile having an access cavity, a support pan, a plurality of cover blocks adapted to be received in the support pan, and a utilities grommet adapted to be received in the floor pan. The method includes the steps of removing the utilities grommet, removing the plurality of cover blocks, reconfiguring the grommet within the support pan, and reconfiguring the cover blocks within the support pan.

[0013] The present invention further relates to a utilities terminal for use in a raised floor system for a work environment adapted for distribution of utilities through utility carriers associated with articles such as articles of furniture. The utilities terminal includes a floor tile having an access cavity, a frame, and an upper surface, where the frame is positioned within the access cavity and the frame has at least one access opening. The utilities terminal further includes an insert configured to be received within the frame, covering at least a portion of the frame. The utilities terminal further includes a subtile selectively positionable within the frame so that utility carriers may be passed through frame.

BRIEF DESCRIPTION OF THE DRAWINGS

[0014]FIG. 1A is an exploded perspective view of a floor system according to a preferred embodiment of the present invention.

[0015]FIG. 1B is a perspective view of the floor system.

[0016]FIG. 2 is an exploded perspective view of the floor system according to an alternative embodiment.

[0017]FIG. 3 is a perspective view of the floor system according to an alternative embodiment.

[0018]FIG. 4 is a schematic top plan view of the floor system.

[0019]FIGS. 5A through 5C are exploded perspective views of the floor system showing the potential orientation of floor tiles.

[0020]FIG. 6 is an exploded perspective view of the floor system according to an alternative embodiment showing the potential orientation of floor tiles.

[0021]FIGS. 7A through 7E are top plan views of floor tiles according to alternative embodiments.

[0022]FIG. 8 is a top plan view of a floor tile frame according to an alternative embodiment.

[0023]FIG. 9 is an exploded perspective view of the floor system according to an alternative embodiment showing the potential orientation of floor tiles.

[0024]FIGS. 10A and 10B are exploded perspective views of the floor system according to an alternative embodiment showing the potential orientation of floor tiles.

[0025]FIG. 10C is a cross-sectional side elevation view of the floor system of FIGS. 10A and 10B showing a structural support system and passage of utilities taken along line 10C-10C in FIG. 10A.

[0026]FIGS. 11A and 11B are exploded perspective views of the floor system according to an alternative embodiment showing the potential orientation of floor tiles.

[0027]FIG. 11C is a cross-sectional side elevation view of the floor system of FIGS. 11A and 11B showing a structural support system and passage of utilities taken along line 11C-11C in FIG. 11A.

[0028]FIG. 12A is a fragmentary perspective view of a structural support system for the floor system.

[0029]FIG. 12B is a cross-sectional side elevation view of the structural support system taken along line 12B-12B in FIG. 12A.

[0030]FIG. 13 is a perspective view of the floor system according to an alternative embodiment.

[0031]FIG. 14 is a perspective view of a support pan, cover block sheet, and grommet of a utilities terminal for the floor system, partially animating a construction sequence of the portion of the cover block sheet, and grommet.

[0032]FIG. 15 is an exploded perspective view of the cover block sheet and grommets according to an alternative embodiment showing the potential orientation and interchangeability of the grommets.

[0033]FIG. 16 is an exploded perspective view of the cover block sheet and grommets according to an alternative embodiment showing the potential orientation and interchangeability of the cover block sheets and grommets.

[0034]FIG. 17 is a perspective view of a floor tile of the floor system according to an alternative embodiment.

[0035]FIG. 18 is a cross-sectional side elevation of the floor tile of FIG. 17 taken along line 18-18.

[0036]FIG. 19 is an exploded perspective view of a floor tile of the floor system according to an alternative embodiment.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

[0037] Referring to FIGS. 1 through 5, a floor system 100 is shown according to a preferred embodiment of the present invention. Floor system 100, which is configured for use in a work environment or the like according to any preferred embodiment (but may be used in a wide variety of other spaces according to alternative embodiments), provides a raised floor 102 installed above a base floor 104 (e.g. a “subfloor” such as a poured concrete floor). Raised floor 102 is formed of a plurality of floor tiles 140 (e.g. floor panels) which are typically arranged in a grid-like pattern to form a floor surface, typically in a horizontal plane.

[0038] As is shown in greater detail in FIGS. 12A and 12B, according to a particularly preferred embodiment, each of floor tiles 140 forming raised floor 102 is supported on base floor 104 by a structural support system. According to any preferred embodiment, the floor tiles and associated structural support system are designed and installed to support the load that may be imposed by persons, articles of furniture and any other occupants that stand or rest directly or indirectly upon the floor tiles (within limits dictated by the structural support system and floor tiles). According to the particularly preferred embodiment shown in FIGS. 12A and 12B, the structural support system includes a plurality of upright stands 107. Each stand 107 includes a base plate 114 a (which is shown as a square plate but may be of other shapes) secured to base floor 104 (e.g. by an adhesive) with a lower threaded rod portion 106 b and an upper threaded barrel portion 106 a; an adjustment or lock nut 110 a is mounted to lower threaded rod portion 106 b; rotation of adjustment nut 110 a on lower threaded rod portion 106 b (which is fixed to base plate 114 a) raises or lowers upper threaded barrel portion 106 b to provide height adjustment for stand 107 (and thus the raised floor).

[0039] According to an alternative embodiment shown in other FIGURES, wherein the structural support system includes a stand 106 secured within base floor 104. Height adjustment of stand 106 is provided by rotating stand 106 (which has a lower threaded end) to a greater or lesser length of threaded engagement within a threaded sleeve 108 inserted in a cavity 114 in base floor 104. Securing of stand 106 to base floor 104 is provided by lock nut 110. Other types of suitable structural support or mounting systems or floor anchors and height adjustment arrangements that may be used for alternative embodiments commercially available and/or are known to those skilled in the art who may review this disclosure.

[0040] According to the preferred embodiment, stand 107 also includes a cap 112 mounted on top of barrel portion 106 a onto which floor tiles 140 are installed. (Cap 112 is mounted directly on top of stand 106 according to alternative embodiments.) As shown in FIGS. 12A and 12B, cap 112 of stand 107 (or cap 112 of stand 106 in other FIGURES) is circular with a set of cutouts or notches 116 formed in association with a crossmember structure 118. As shown, four floor panels may be supported at their intersecting corners by the cap of each stand. A lower perimeter edge 144 of floor tile 140 nests or seats (i.e. rests or is supported) within each notch 116 of cap 112; an outer peripheral flap 142 of floor tile 140 is supported on the top of crossmember structure 118 of cap 112. According to a particularly preferred embodiment, when the floor system is installed, the perimeter of each of the upper surface edges of each floor panel are adjacent to the perimeter of the upper surface edges of an adjacent floor panel so as to provide a secure and relatively close fit for the floor panels (see FIG. 12B) as well as a raised floor presenting a uniform appearance (with “seams” between floor panels that are relatively unobtrusive). According to any preferred or alternative embodiments, any of a wide variety of other types of structural support systems of suitable functionality and strength may be employed for the floor tiles (i.e. with stands of other configurations or without stands, installed at various heights with respect to the base floor, with caps of other configurations or without caps, etc.).

[0041] According to any preferred embodiment, articles such as articles of furniture will be supported by the raised floor of the floor system. For example, in FIGS. 1A and 1B, articles of furniture shown as “systems furniture” in the form of a panel wall system 122 is arranged on raised floor 102 (a table 125 and chairs 123 are shown schematically in FIG. 1B). According to alternative embodiments, the articles of furniture and other articles may be of any type used in a work environment or space, including but not limited to panel walls, cabinets, workstations, worksurfaces, desks, tables, chairs or other seating products, carts, posts or other utility or activity products, storage products, bins, shelving units, frames or other structures, lighting products, equipment, etc. (The term “article” or “article of furniture” is intended to be used in the broadest sense, and would also include any other type of mechanical or electronic or like equipment or system, HVAC system or element (such as an inlet, outlet or diffuser), device, machine, instrument, other object or system or the like that occupies of is used on the floor of a work environment). The articles may be freestanding, mounted or secured to the floor and/or to internal walls of the work environment or space or secured together, depending upon needs and nature of the particular application or installation.

[0042] According to any preferred embodiment, the articles of furniture associated with the floor system may be configured to support connectivity for utilities (e.g. through associated internal and/or external passages), for example, telephony, data, power, HVAC, piping, or any other signals or services. As shown in the FIGURES, utilities may be provided by wires or cables 120, which typically run beneath raised floor 102 and above base floor 104 (e.g. out of sight in ordinary use). In order to allow for interconnection or passage of utilities between or through the articles of furniture, the raised floor of the floor system is configured to provide an access pattern including one or more access points (shown as apertures 130 in FIGS. 1 and 2). As shown in the FIGURES, utilities shown as cables 120 pass in either direction through the access points (e.g. apertures 130) through raised floor 102 and can be routed into passages within or associated with various articles of furniture (see FIGS. 1 through 3).

[0043] According to a particularly preferred embodiment shown in FIGS. 1 through 5, floor system 100 includes four types of floor tiles 140 a, 140 b, 140 c and 140 d. Floor tile 140 a is solid, with no aperture (i.e. access point). Floor tile 140 b, shown in FIG. 5A, includes an edge aperture 141. Floor tile 140 c, shown in FIG. 5B, includes a central aperture 144 (slightly offset). Floor tile 140 d, shown in FIG. 5C, includes a lateral aperture 144. During installation of raised floor 102, any of four floor tiles 140 a through 140 d may be selectively and interchangeably installed in any of four rotational positions (see FIGS. 5A through 5C) at a particular location. As a result of the possible combinations of rotational positions and locations, interchangeable floor tiles 140 a through 140 d may be represented by an “effective” floor tile (shown by reference numeral 150) having an “effective” access pattern 160 (formed in base 147). As is apparent from the FIG. 4, the size and shape of “effective” access pattern 160 of “effective” floor tile 150 is determined by the superimposition of each of apertures 141, 144 and 146 of each of floor tiles 140 b, 140 c and 140 d in each of the possible rotational positions. (As shown, for convenience of installation and configuration, but not of necessity, “effective” floor tile is of a symmetrical arrangement; it should be noted that according to alternative embodiments, where a set of floor tiles that are not rotatable, or are not wholly interchangeable, is used, the arrangement of “effective” floor tile may not be symmetrical.)

[0044] According to any preferred embodiment, for example as shown in FIGS. 1 through 5, floor system 100 is configured so that the arrangement or placement of articles of furniture on raised floor 102 is not constrained by the access pattern, i.e. the location of access points 130 for utilities (e.g. cables 120). During installation of raised floor 102, the selection and position of the floor tiles will dictate the location of the access points within the floor system. The location of the access points within the floor system thereby can be matched to the location of passages for utilities that are associated with the articles of furniture to be arranged or installed on the floor system.

[0045] As shown in FIGS. 1A and 1B, panel wall system 122 includes a primary wall panel 124 (e.g. “module” or “spine” panel) and secondary wall panels 126 (e.g. “off-module” panel). Primary wall panel 124, as well as each of secondary wall panels 126, are configured with internal passages for cables 120. Primary wall panel 124 and secondary wall panels 126 are arranged in an orthogonal orientation with respect to floor system 100. As a result of the selection and rotational position of the floor tiles, access points shown as apertures 130, 132, 134, and 136 provide for passage of cables 120 (or other utility distribution elements) from beneath raised floor 102 directly into the passages within primary wall panel 124 and secondary wall panels 126, respectively.

[0046] As shown in FIG. 2, panel wall system 122 a also includes a primary wall panel 124 a and secondary wall panels 126 a, which are also configured with internal passages for cables 120. However, primary wall panel 124 a and secondary wall panels 126 a are arranged in an angled or skewed orientation with respect to floor system 100. Nevertheless, as a result of the selection and rotational position of the floor tiles (e.g. which are of a type shown in FIGS. 1A and 1B), access points shown as apertures 130 a, 132 a, 134 a, and 136 a provide for passage of cables 120 (or other utilities) from beneath raised floor 102 directly into the passages within primary wall panel 124 a and secondary wall panels 126 a, respectively.

[0047] The flexibility provided by the floor system is illustrated by the exemplary embodiments of FIGS. 1, 2 and 3, as well as in FIG. 4 (which is a top plan view of the floor system showing other arrangements for access points 130 along with “effective” floor tiles 150 with “effective” access pattern 160). The positions of apertures 130, 132, 134 and 135 in floor system 100 accommodate the position of panel wall system 122 (FIGS. 1A and 1B); the positions of apertures 130 a, 132 a, 134 a and 136 a in floor system 100 a accommodate the position of panel wall system 122 a (FIG. 2). According to any preferred embodiment, the floor system can readily be configured or reconfigured to accommodate any arrangement or position of articles of furniture (i.e. however selectively positioned). For example, as shown in FIG. 3, the floor system can also be configured with an access point 130 b located as to provide a structure shown as frame 126 with access to cables 120 through at least one of its legs 128. FIG. 4 also shows a circular base 139 (or “footprint”) for an article of furniture such as a table or utility post positioned over an access point shown as aperture 138. In other applications, other articles or combinations of articles having different shapes and sizes could be positioned on the raised floor.

[0048] The “coverage” of the access pattern for the floor system depends upon the potential locations of the access points corresponding to the “effective” floor tile formed by the superimposition of all floor tiles within the floor system (i.e. the set of wholly or partially interchangeable floor tiles that is considered as the floor system). When being installed or reconfigured, the raised floor of the floor system provides for potential locations of access points for distribution of utilities in a predetermined access pattern; the actual locations of access points are determined by the selection and arrangement of the floor tiles as actually installed to form the raised floor. As shown in FIG. 4, floor system 100 (i.e. the set of four floor tiles shown in FIGS. 5A through 5C) provides an uninterrupted (continuous) grid of potential access points for articles of furniture across raised floor 102. According to any preferred embodiment, the location of access points is made at least partially coincident with the position of the articles of furniture (i.e. the passages for utilities in certain articles of furniture that are so configured). In this manner, the position or arrangement of the articles of furniture is not constrained by access to utilities through the raised floor.

[0049] According to other exemplary embodiments, such as those shown in the remaining FIGURES, the floor system may provide for an access pattern of potential access points covering virtually the entire surface of the raised floor. (A wide variety of other floor tile configurations are possible according to other alternative embodiments that provide an access pattern with more or less coverage, to varying degrees.) According to any preferred embodiment, the floor system will provide for an access pattern of sufficient coverage (density and/or granularity) for the particular application so that articles of furniture may be “linked” to utilities regardless of their position or location on the raised floor. (The “density” of the access pattern may be controlled by the location of the access points on the floor tile; the “granularity” of the access pattern may be controlled by the size of the access points.)

[0050] Where necessary or useful, any of the access points can be provided either wholly or partially with a suitably-shaped plug (shown in FIG. 5B) (e.g. in the form of a grommet or of a “blind” plug, i.e. without or with passage or slot, perhaps formed of rubber or plastic, or the like) so that any portion of the access point that is not intended to be visible or exposed (for example, after the articles of furniture have been arranged) will be covered and/or so that the cables are secured within the access point. (According to an exemplary embodiment shown in FIG. 5B, a compliant plastic plug 144 a having a central slot 145 is provided for aperture 144 of floor tile 140.)

[0051] Referring to FIG. 6, an alternative embodiment of floor system 200 is shown using a carrier or tray tile 240 (in the place of the standard floor tile). Tray tile 240, which is configured to be installed within floor system 100 in any of four rotational positions, has a solid base and an offset aperture 246 into which a floor subtile 270 may be installed. Each subtile 270, which is configured to be interchangeably installed within tray tile 240 in any of four rotational positions, is supported by a peripheral flap 242 on a ledge 244 around the perimeter of aperture 246. Each of floor subtiles 270 also provides a distinctive set of one or more access points for utilities. (As with any exemplary embodiment, the overall or “effective” access pattern of the floor system is predetermined by the possible configuration of the available floor subtiles.)

[0052] By way of example but not of limitation, a variety of configurations of floor subtiles (an access points or patterns) are shown in FIGS. 6 and 7A through 7E. For example, subtile 270 a includes a slot 272. Subtile 270 b includes a plurality of holes 274 (in a triangular pattern). Subtile 270 c includes an offset circular hole 276 with a cap 277 (that can be indexed in a variety of orientations); cap 277 has a cutout 278 that can be filled in whole or in part by a plug 279 (or grommet). Subtile 270 d does not provide for any access points. Subtile 270 e includes an edge aperture with cover or flap 280 (e.g. made of a resilient or semi-rigid plastic material or the like) that can be lifted to provide for access to utilities. Subtile 270 f includes a central circular hole 276 with a cap 277 (seated on a rim that can be indexed in a variety of orientations); cap 277 has a cutout 278 that can be filled in whole or in part by a plug 279 (or grommet).

[0053] Referring to FIGS. 8 and 9, an alternative embodiment of floor system 300 is shown using a carrier or frame tile 340, similar in purpose to tray tile 240 of FIG. 6. (As will become apparent to those of skill in the art who review this disclosure, the arrangement of the tray tile or frame tile may be modified to include one or more apertures in a wide variety of suitable shapes, internal orientations and configurations.) Frame tile 340, which is configured to be installed within floor system 300 in any of four rotational positions, has a frame 341 with a set of four apertures 346 into each of which floor subtiles 370 may be installed. Each floor subtile 370, which is configured to be interchangeably installed within tray tile 340 in any of four locations and any of four rotational positions, is supported by a peripheral flap 342 on frame 341 and around the perimeter of aperture 346.

[0054] By way of example but not of limitation, a variety of configurations of floor subtiles are shown in FIG. 9, some of which are similar to the floor tiles and subtiles shown according to other exemplary embodiments. Subtile 370 a includes a rectangular slot 372. Subtile 370 b includes a plurality of hole 374. Subtile 370 c includes an offset circular hole 375 with a cap 377 (that can be indexed in a variety of orientations); cap 377 has a cutout 378 that can be filled in whole or in part by a plug 379 (or grommet). Subtile 370 d is solid, with no aperture (i.e. access point). Subtile 370 e includes an edge aperture 380. Subtile 370f includes a lateral aperture 376 a. Subtile 370 g includes a central aperture 376 b (slightly offset). (As shown by comparing FIGS. 5A through 5C and FIG. 9, the floor tiles of one embodiment may function in a similar manner to the floor subtiles of other embodiments.)

[0055] Referring to FIGS. 10A through 10C, an alternative embodiment of floor system 400 is shown using a carrier or tray tile 440 (similar to tray tile 240 shown in FIG. 6) with a peripheral flap 442. (According to alternative embodiments, other arrangements, such as the frame tile 340 shown in FIG. 9, could be used.) As shown in FIG. 10B, floor subtile 470, which is configured to be installed within an aperture 446 in a base 441 of tray tile 440 in any of four rotational positions, includes a plurality of access holes 474 (in a generally symmetrical offset grid pattern). Floor system 400 also includes a mounting guide 452 having a channel section 454 into which a panel wall 460 may be fitted with retaining plugs 456 (projecting downwardly) which may be fitted into access holes 474. By virtue of mounting guide 452, panel wall 460 may be secured to raised floor 402.

[0056] As shown in FIG. 10C, retaining plugs 456 of mounting guide 452 are hollow so that utilities shown as cables 120 may pass from beneath raised floor 402 through access holes 474 of subtile 470 through mounting guide 456 and into an internal passage or space 458 within panel wall 460. Floor system 400 provides not only for flexibility in the location of access points for utilities but also for flexibility in the positioning and securing of panel wall 460 to raised floor 402. In any event, the location of panel wall 460 is not constrained by floor system 400 (given the range of predetermined positions). According to alternative embodiments, the plurality of holes in the subtile could be arranged in other suitable patterns for a particular application (e.g. in an asymmetrical pattern).

[0057] Referring to FIGS. 11A through 11C, an alternative embodiment of floor system 500 is shown using a carrier tile 540 (similar to tray tile 340 shown in FIG. 6.) Carrier tile 540, which is supported by cap 112 of stand 106 at a peripheral flap 542, includes a compartment 562 into which a floor subtile 570 is configured to be installed in any of four rotational positions. Compartment 562 of carrier tile 540 has a base 564 including a plurality of upward projections shown as a system of posts 566 which provide support for subtile 570. Subtile 570, which can be made from a sheet of any sufficiently strong and durable material (preferably a rigid plastic material of suitable thickness), is secured within compartment 562 of carrier tile 540 by a set of fasteners shown as screws 568. Screws 568 are inserted through subtile 572 and are threaded into holes 579 a at mounting areas shown as mounting tabs 574 in corners 579 of compartment 562. Access to utilities is provided through apertures 578 at base 564 of compartment 562 (at least one aperture of suitable size is required). According to any preferred embodiment, as shown in FIG. 11C, posts 566 are of a size and shape and arranged in a pattern that provides sufficient structural support for subtile 570 but that does not impede the passage of cables 120 through raised floor 502.

[0058] Subtile 570 originally has the form of a solid sheet 571 but can be provided with access points for utilities shown as cables 120 by providing a cutout arrangement of suitable size, shape and placement as required for the particular application. The cutout arrangement can be formed in the subtile before or during installation of the floor, when articles of furniture are positioned and/or when the floor is reconfigured. By way of example but not of limitation, subtile 570 a is provided with an offset elongated slot cutout 572, subtile 570 b is provided with an “L”-shaped cutout 571, subtile 570 c is provided with an offset circular cutout 576, subtile 570 d is provided with an offset rectangular cutout 573, and subtile 570 e is provided both with an offset circular cutout 576 b and an offset square cutout 576 a (over the top of which a structural member 128 a of an article of furniture has been positioned). As is apparent, the access pattern provided by the subtiles of floor system 500 is particularly flexible, and preferably can be modified during installation of floor system and/or positioning of articles of furniture within the work environment or space (i.e. “field cut”). The position of the article of furniture is effectively unconstrained by the floor system.

[0059] As is apparent from the exemplary embodiments, the floor subtiles of certain embodiments fit and function in a similar manner to the floor tiles of other embodiments and are therefore conceptually interchangeable provided they are of proper size and strength for a particular application. According to any preferred embodiment, the floor tiles and subtiles fit together to provide a structurally sound and relatively seamless raised floor.

[0060] While the exemplary preferred and alternative embodiments of the floor system show floor tiles (e.g. including tray tile, frame tile, carrier tile, other tile, etc.) and subtiles having a square shape, other shapes could be used according to additional alternative embodiments of the present invention. According to any preferred embodiment, the floor tiles and/or subtiles, although readily reconfigurable, will fit together in any suitable arrangement to provide a structurally sound and relatively seamless raised floor while providing an access pattern or access pattern for distribution of utilities that is suitable for the application.

Additional Exemplary and Alternative Embodiments

[0061] Referring to FIGS. 13-18, additional exemplary and alternative embodiments of a floor system are shown.

[0062] Referring to FIG. 13, a raised floor system 700 is shown in a work environment (such as an office space, computer room, utility room or other facility) where various utilities are used. Utilities which may include any utilities typically associated with the transmission of power, voice, and/or data, through utilities carriers such as power cables, network connections, telephone wires, optical cables, etc. or various combinations as may be used in the work environment. (The utilities may also include various other utilities used in the environment, such as heating, ventilation and air conditioning (HVAC) ducts, plumbing, pipes, conduits, etc.)

[0063] According to any preferred embodiment, the floor system is configured to provide a level floor surface that is relatively free of protrusions; the floor system may also be capable of being retrofit into a work environment (e.g. where a raised floor had previously been installed) to allow passage of utilities under the floor and through access points so that utilities may be passed into work spaces within the work environment.

[0064] As shown in FIGS. 1A, 1B and 13, the floor system includes a raised floor that may be constructed using a selective combination or arrangement of floor tiles which may be installed or interchanged selectively for placement, configuration and orientation of access points for utilities (e.g. in association with articles of furniture that may be configured and positioned throughout the work environment, see FIGS. 1A and 1B). According to any preferred embodiment, floor system may include a variety of different floor tiles and types of floor tiles (including floor tiles of a generally conventional configuration), to provide flexibility in configuration and placement of various articles of furniture based on the particular needs, requirements, space constraints, etc. of the work environment, so that the positioning of articles of furniture is not constrained by the location of access to the various utilities.

[0065] Referring to FIG. 13, floor system 700 is shown in a work environment having a base floor 704. Floor system 700 includes a raised floor 702 installed above base floor 704 upon a structural support system (e.g. of a conventional type see FIGS. 10C, 12A, and 12B). Raised floor 702 of floor system 700 includes floor tiles 740 and 768 which are installed upon and supported by the structural support system. Floor tiles 740 are of a generally conventional type and arrangement (and can be provided in any of a wide varieties of shapes, sizes and configurations). Floor tiles 740 may be similar to floor tile 440 as discussed above, but may be other types and arrangements. Floor tiles 740 a, 740 b, 740 c, and 740 d may be configured to serve as a utilities terminal and are provided with an aperture or opening 746 (e.g. base access point) into which a frame shown as a tray tile 718 (e.g. in the form of a carrier, receptacle, compartment, or support “pan”) is installed. A subtile 720 is installed into tray tile 718. Subtile 720 may be provided with an aperture or opening (shown as a hole 770 in FIG. 13) into which a plug or insert 722 (or grommet) can be installed. Tray tile 718 a or 718 b may include one or a plurality of apertures or openings (shown as circular holes 736 in FIG. 13). Insert or grommet 722 has an aperture or opening 774 into which a cover or cap 772 (or grommet) may be installed (FIGS. 14 and 15). Cap or grommet 772 may provide a notch or access hole 776; cap 772 may also be rotated or inserted at various orientations within aperture 774.

[0066] As shown in FIG. 13, floor tiles 740 may be installed into floor system 700 to position an opening 746 in a floor tile for installation of a tray tile 718 in any of a variety of locations; a subtile may be installed into a tray tile to position opening 746 in any of a variety of locations; an insert 722 with cap 772 may also be installed to position an access hole 776 in any of a variety of locations. As a result, according to any preferred embodiment, utilities may be passed from beneath the raised floor 702 through a hole 776 in cap 772 installed within a subtile 720 which is installed within the tray tile 718. According to any preferred embodiment, the tray tile 718 and subtile 720 may be provided in any of a variety of configurations having any of a wide variety of aperture or opening patterns or configurations in any of a wide variety of sizes or shapes or number. Orientation or arrangement of the opening in the floor tile for the tray tile provides one level of selective placement of the access opening for utility carriers (e.g. wires or cables or conduits, etc.); orientation or arrangement of the opening in the subtile within the tray tile provides a second level of selective placement; orientation or arrangement of the insert within the subtile provides a third level of selective placement; orientation of a hole in cap within the insert provides an additional level of selective placement of the access opening.

[0067] According to an exemplary embodiment as shown in FIGS. 14 through 16, subtile 720 can be formed of a series of selectively detachable or selectively removable units or segments 748 (or cover blocks); one segment or a plurality of segments can be selectively detached from subtile 720 to provide a cutout or aperture 770 at a desired position (e.g. within the interior, at the perimeter, or in any other location) and with a desired size (e.g. one segment, two segments, or more). An insert (or plug or plugs) having a corresponding size may be installed within the aperture or opening of the subtile which then can be installed within the tray tile. As shown in FIG. 14, segments 748 of subtile 720 may be arranged in a grid or other pattern and connected by a web 746 or other structure. In a particularly preferred embodiment, segments 748 of subtile 720 are arranged in a four by four grid pattern.

[0068] Referring to FIGS. 15 and 16, the inserts may be provided in any of a wide variety of sizes and configurations. An insert 756 may include a set of flexible panels 802 (shown not flexed open) through which wires or cables 778 (shown in phantom lines) can be passed to route utilities from beneath the raised floor (e.g. along designated tracks or slots). Insert 756 is shown in a first condition with panels 802 in an unflexed state, and a second condition in a flexed state with wires or cables 778 passed through. An insert 758 may provide one or more utilities modules shown as outlet boxes 760 (two are shown as including a hinged door 779 with access notches 780) into which power or voice or data connections or access generally may be made for utilities. An insert 754 having one cap 772 with a notch 782 (e.g. through which a wire or cable may be passed) or an insert 766 having a plurality of caps may be provided (FIG. 16). An insert 752 having one opening or an insert 764 having two openings 786 (or more openings as in insert 788 (FIG. 16)) may be provided. According to other alternative embodiments, the inserts may be provided in any of a wide variety of arrangements and combinations of arrangements so that access openings can be made available at any of a wide variety of locations within the floor system.

[0069] Referring to FIGS. 17 and 18, a floor tile 740 is shown according to an alternative embodiment. Floor tile 740 includes an opening or cutout 746 into which a tray tile 718 is installed (e.g. to rest upon a ledge or other support structure within opening 746); a subtile 720 is installed into tray tile 718; an insert 790 can be installed in (or associated with) subtile 720 (e.g. having a base 792 to rest on tray tile 718). Insert 790 has an aperture 793 into which a cap 794 may be installed (e.g. to rest upon a ledge or other supporting structure provided within aperture 793). Cap 794 may provide a notch or hole 796 through which a utility carrier shown as a cable 798 (shown in fragmentary view) may pass from beneath the raised floor to above the raised floor. Cap 794 may also be arranged so that hole 796 can be set at a desired position within the insert and therefore within the raised floor.

[0070] As shown in FIGS. 13 and 18, base floor tile 740 provides a ledge 724 which is disposed at least partially around the perimeter of access point or opening 746 to provide suitable support for frame or tray tile 718.

[0071] Referring to FIGS. 13 and 14, according to an exemplary embodiment, frame or tray tile 718 may be a pan-shaped body having a base or bottom 726, side walls 728, and lip or edge 732. Base 726 of tray tile 718 is shown to include apertures shown as openings 736. As shown in FIG. 13, openings 736 may be circular apertures disposed on base 726 of tray tile 718. According to alternative embodiments, the openings may be arranged in any pattern including a three by three grid pattern (as shown in tray tile 718 b), a four by four grid pattern (as shown in tray tile 718 a) or any other pattern or shape or size or combination, in any desired location, pattern, or arrangement. Referring to FIG. 18, frame or tray tile 718 is configured to fit and be supported in opening 746 of base floor tile 740 by ledge 724. Edge 732 is configured to fit on top surface 734 of ledge 724 and to support tray tile 718 in base floor tile 740. According to alternative embodiments, the frame or tray tile may be supported or mounted in the base floor tile by a variety of other methods including fasteners such as clips, screws, etc.

[0072] According to an exemplary embodiment shown in FIG. 14, segments (or blocks) are provided in a series within a subtile shown as sheet 744. The blocks are interconnected by a portion of material shown as web 746. The web may be a connection that is scored, pre-stressed, perforated, or provided in any other suitable arrangement to define an individual segment out of sheet 744. As shown in FIG. 14, selected blocks 748 may be removed from sheet 744 by selective removal (e.g. breaking off) from sheet 744. According to an exemplary embodiment, for removal, blocks 748 may be repeatedly deformed along the selected “break-off” line to “fatigue” the web or connection between selected blocks 748 for removal from sheet 744. According to any preferred embodiment, once the connection between the selected blocks and remainder of the sheet has been sufficiently fatigued or severed (e.g. by cutting or scoring or the like), the selected blocks may be removed. According to an alternative embodiment, the connection between individual connected blocks may be a rigid or “brittle” connection through which the selected blocks may be separated and removed by “snapping” from block sheet 744. The blocks may be formed with an “open” box construction or other form (e.g. solid). According to a particularly preferred embodiment, the subtile (with blocks) may be integrally formed from a moldable material such as suitably resilient plastic. According to other alternative embodiments, the subtile may be formed from other materials in other shapes and configurations.

[0073] As shown in FIG. 14, after selected blocks 748 are removed from subtile or sheet 744, any suitable insert (or inserts) may be installed within tray tile 718 within the vacant or open area 770 of selected blocks 748. Referring to FIG. 15, a variety of inserts are shown including a pass-through 752, pass-through with cover plate 754, a pliable pass-through cover 756, a utilities module 758, a power outlet module 760, a phone jack module 762, a duplex pass-through 764, a triplex covered pass-through 722 or any other insert or suitable size and shape (e.g. to the corresponding blocks removed from the subtile).

[0074] Referring to FIG. 19, floor tiles 740 may alternatively be further provided with plate 784 installed over subtile 720. Fasteners, shown as screws 786, attach plate 784 to tray tile 718. Plate 784 allows for flexible planning and changes in the construction of raised floor system 700. Plate 784 may operate as a built in “dumb” tile to cover or conceal subtile 720, and/or tray tile 718.

[0075] The modularity and selective reconfigurability of the floor system and utilities terminal is shown in FIG. 16. A variety of exemplary configurations for use in a utilities terminal are shown. It should be noted that the few configurations shown in FIG. 16 are meant only to be illustrative of the wide variety of configurations which may be implemented using the floor system, by choosing and arranging and selectively reconfiguring one or more of the elements as may be necessary or desirable based on space requirements of the work environment, such as the desired location of articles of furniture.

[0076] According to any preferred embodiment, utilities may be passed from beneath the raised floor through a cutout in a floor tile so that access is available to utilities at any of a wide variety of positions and locations upon the raised floor. According to any preferred embodiment, the floor tile may be provided in any of a variety of configurations having any of a wide variety of aperture configurations in any of a wide variety of sizes or shapes or number. According to an alternative embodiment, the subtile may be configured to be installed within a floor tile without the use of a tray tile (e.g. with or without a supporting frame or structure). It should also be noted that the mounting or installation of any of the elements of the floor system (e.g. floor tiles, frames, carriers, tray tiles, subtiles, inserts, cover blocks, plugs, caps, covers, grommets, or the like) may be provided in any of a wide variety of different arrangements, for example, through the use of supporting structures such as base-frame and/or edge-ledge arrangements (see FIG. 18), support brackets or trim, interference fits, mechanical fasteners, etc. According to any preferred embodiment, the elements will be configured for quick and easy removal (e.g. without fasteners) so that the floor system can be configured and reconfigured selectively and conveniently to provide access points or access openings for utilities (e.g. one or a plurality of utility carriers) at any of a wide variety of locations or positions (e.g. in association with articles of furniture).

[0077] Although only a few exemplary embodiments of the floor system have been described in detail above, those skilled in the art who review this disclosure will readily appreciate that many modifications are possible in the exemplary embodiments without materially departing from the novel teachings and advantages of the present invention. For example, the floor system is not limited by type or nature of the articles of furniture or the arrangement of utilities above or below the raised floor. (In alternative embodiments, utilities may include a wide variety of services, including those provided through cables, conduits, pipes or ducts, layers, levels, channels, paths, passages, raceways, etc.) Neither is the floor system limited by the specific size, scale, shape or fit of floor tiles and subtiles (which may be based on or adapted from existing floor systems such as those available from Tate Access Floors, Inc. of Jessup, Md., Interface Architectural Resources of Kennesaw, Ga., and/or by other suppliers or standards), the manner of installation of the floor system, the nature of the raised floor (whether a thick raised floor, thin raised floor or other type of floor), the height and structural support system for the raised floor, or whether the floor tiles and subtiles are uncovered or covered by vinyl, carpet, etc. Access points, apertures or access patterns of any size or shape may be provided in the floor tiles or subtiles. Any preferred embodiment of the floor system will include floor tiles and subtiles of suitable structural rigidity and strength that have been interconnected to provide a raised floor that meets the requirements for loading as well as noise, efficiency and regulatory compliance.

[0078] Accordingly, all such modifications are intended to be included within the scope of the invention as defined in the following claims. In the claims, any means-plus-function clause is intended to cover the structures described herein as performing the recited function and not only structural equivalents but also equivalent structures. Other substitutions, modifications, changes and omissions may be made in the design, operating conditions and arrangement of the preferred embodiments without departing from the spirit of the invention as expressed in the appended claims. 

1. A utilities terminal for use in a raised floor system comprising: a floor tile having an access cavity, a support pan and an upper surface, said support pan positioned within said access cavity and said support pan having at least one access opening; a utilities grommet, said grommet configured to be received within said support pan covering at least a portion of said support pan; and a plurality of cover blocks selectively configured and adapted to be received within said support pan covering the remaining open area of said support pan and positioned substantially flush to said upper surface of said floor tile.
 2. The utilities terminal defined in claim 1 wherein said cover blocks are positioned within said support pan to provide access to at least a portion of said support pan.
 3. The utilities terminal defined in claim 1 wherein said cover blocks are positioned within said support pan to prevent access to said support pan.
 4. The utilities terminal defined in claim 1 wherein said cover blocks are interconnected prior to installing into said support pan and whereby at least one of said cover blocks can be easily detached and removed from the others.
 5. The utilities terminal defined in claim 1 wherein said cover blocks can be reconfigured after installation to allow for more or less access to said support pan.
 6. The utilities terminal defined in claim 1 wherein said utilities grommet includes a utilities module.
 7. The utilities terminal defined in claim 1 wherein said grommet is dimensioned to be substantially the same size as any one of said cover blocks.
 8. The utilities terminal defined in claim 1 wherein said grommet is dimensioned to be substantially the same size as a plurality of said cover blocks.
 9. A floor system comprising: a plurality of pedestals adapted to support floor tiles; a plurality of floor tiles having an access cavity, and an upper surface wherein at least one of said floor tiles includes a support pan positioned within said access cavity and said support pan having at least one access opening; a utilities grommet, said utilities grommet configured to be received within said support pan covering at least a portion of said support pan; and a plurality of cover blocks selectively configured and adapted to be received within said support pan covering the remaining open area of said support pan and positioned substantially flush to said upper surface of said floor tile.
 10. The floor system defined in claim 9 wherein said cover blocks are positioned within said support pan to provide access to at least a portion of said support pan.
 11. The floor system defined in claim 9 wherein said cover blocks are positioned within said support pan to prevent access to said support pan.
 12. The floor system defined in claim 9 wherein said cover blocks are interconnected prior to installing into said support pan and whereby at least one of said cover blocks can be easily detached and removed from the others.
 13. The floor system defined in claim 9 wherein said cover panels can be reconfigured after installation to allow for more or less access to said support pan.
 14. The floor system defined in claim 9 wherein said pedestals are vertically adjustable.
 15. The floor system defined in claim 9 wherein said utilities grommet includes a utilities module.
 16. The utilities terminal defined in claim 9 wherein said grommet is dimensioned to be substantially the same size as any one of said cover blocks.
 17. The utilities terminal defined in claim 9 wherein said grommet is dimensioned to be substantially the same size as a plurality of said cover blocks.
 18. A method for reconfiguring a utilities terminal within a raised floor system wherein the utilities terminal includes a floor tile having an access cavity, a support pan, a plurality of cover blocks adapted to be received in said support pan, and a utilities grommet adapted to be received in said floor pan, the method comprising steps of: removing said utilities grommet; removing said plurality of cover blocks; reconfiguring said grommet within said support pan; and reconfiguring said cover blocks within said support pan.
 19. The method for reconfiguring a utilities terminal defined in claim 18 wherein the step of reconfiguring said grommet includes repositioning said grommet at a different location within said support pan and wherein the step of reconfiguring said cover blocks includes repositioning said cover blocks to cover the open area of said support pan not covered by said grommet.
 20. The method for reconfiguring a utilities terminal defined in claim 18 wherein the step of reconfiguring said grommet includes utilizing a different dimensioned grommet and wherein the step of reconfiguring said cover blocks includes utilizing a different dimensioned configuration of said cover blocks positioned to cover the open area of said support pan not covered by said grommet.
 21. A utilities terminal for use in a raised floor system for a work environment adapted for distribution of utilities through utility carriers associated with articles such as articles of furniture, the utilities terminal comprising: a floor tile having an access cavity and an upper surface; a frame positioned within said access cavity having at least one access opening; an insert configured to be received within said frame covering at least a portion of said frame; and a subtile selectively positionable within said frame so that utility carriers may be passed through said frame.
 22. The utilities terminal of claim 21 , wherein said subtile is selectively configured and adapted to be received within said frame covering a remaining open area of said frame and positioned substantially flush to said upper surface of said floor tile.
 23. The utilities terminal of claim 22 , wherein said subtile further comprises cover blocks.
 24. The utilities terminal of claim 23 , wherein said cover blocks further comprise detachable segments.
 25. The utilities terminal of claim 21 , wherein said insert further comprises a grommet. 